Abstract
Carnivorous Nepenthes pitcher plants capture arthropods with specialized slippery surfaces. The key trapping surface, the pitcher rim (peristome), is highly slippery when wetted by rain, nectar or condensation, but not when dry. As natural selection should favour adaptations that maximize prey intake, the evolution of temporarily inactive traps seems paradoxical. Here, we show that intermittent trap deactivation promotes ‘batch captures' of ants. Prey surveys revealed that N. rafflesiana pitchers sporadically capture large numbers of ants from the same species. Continuous experimental wetting of the peristome increased the number of non-recruiting prey, but decreased the number of captured ants and shifted their trapping mode from batch to individual capture events. Ant recruitment was also lower to continuously wetted pitchers. Our experimental data fit a simple model that predicts that intermittent, wetness-based trap activation should allow safe access for ‘scout’ ants under dry conditions, thereby promoting recruitment and ultimately higher prey numbers. The peristome trapping mechanism may therefore represent an adaptation for capturing ants. The relatively rare batch capture events may particularly benefit larger plants with many pitchers. This explains why young plants of many Nepenthes species additionally employ wetness-independent, waxy trapping surfaces.
Highlights
Natural selection favours traits that increase the overall fitness of an organism [1]
We investigated the frequency of batch capture events for one week by monitoring the natural prey intake of 43 (29 upper and 14 lower) pitchers on four individual plants with four to six shoots each
Our results show that temporarily ineffective pitcher traps do not represent a disadvantage for the plant
Summary
Natural selection favours traits that increase the overall fitness of an organism [1]. Nepenthes pitcher plants have evolved a temporarily ineffective trapping mechanism [4]. The inner pitcher wall is covered with slippery wax crystals that may play a role in prey capture as well as retention [6,7,8]. We previously hypothesized that the intermittent and unpredictable activation of Nepenthes traps facilitates ant recruitment and may represent a strategy to maximize prey capture [4,9]. ‘Scout’ ants explore new food sources and subsequently recruit nest-mates to exploit these [17] Because of this scouting habit, temporary trap deactivation might not be a disadvantage as it has the potential to increase scout survival, ant recruitment and prey numbers. We expect a shift in the mode of capture for ants: in the case of successful recruitment (under natural, intermittently wet conditions), ants should be captured in larger batches, whereas in the constantly wet case, they should be captured individually, to non-recruiting insects
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